65D - 180F SPLIT SYSTEM The SPINCHILLER series signals a turning point in the development of this type of unit. It incorporates all the newest technology currently available, and is characterized by: EFFICIENCY thanks to special features of construction, the SPINCHILLER guarantees high energy efficiency, especially when operating under partial load conditions; SELF-ADAPT CAPABILITY evolved electronics ensure that the operating parameters of the chiller can be adapted to the load conditions of the overall system, opti- mizing power consumption, minimizing noise and extending the life of components; RELIABILITY SCROLL compressors and newly designed electronic controllers combine to give levels of reliability unattainable hitherto with conventional units of similar rated capacity BT05G013GB-00 MSAT-SC 65D-180F AIR COOLED CONDENSING UNIT FOR OUTDOOR INSTALLATION SPINCHILLER represents the very latest step in the evolution of chiller units.Designed specifically to optimize efficiency at partial loads, units of the SPINCHILLER series offer lower energy consumption — under normal operating conditions — than any other chiller of similar rated capacity. MSAT-SC 65D - 180F (R-407C) Cooling [kW] 65D 210 70D 226 75D 241 80D 255 90D 278 100D 318 110D 364 120D 386 135F 429 150F 462 165F 518 180F 588 Size Clivet is partecipating in the EUROVENT Certification Programme. Products are listed in the EUROVENT Directory of Certified Products and in the site www.eurovent-certification.com. CERTIFIED QUALITY SYSTEM ISO 9001 : 2000
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65D - 180F SPLIT SYSTEM
The SPINCHILLER series signals a turning point in the development of this type of unit. It incorporates all the newest technology currently available, and is characterized by: EFFICIENCY thanks to special features of construction, the SPINCHILLER guarantees high energy efficiency, especially when operating under partial load conditions; SELF-ADAPT CAPABILITY evolved electronics ensure that the operating parameters of the chiller can be adapted to the load conditions of the overall system, opti-mizing power consumption, minimizing noise and extending the life of components; RELIABILITY SCROLL compressors and newly designed electronic controllers combine to give levels of reliability unattainable hitherto with conventional units of similar rated capacity
BT
05G0
13GB
-00
MSAT-SC 65D-180F AIR COOLED CONDENSING UNIT FOR OUTDOOR INSTALLATION
SPINCHILLER represents the very latest step in the evolution of chiller units.Designed specifically to optimize efficiency at partial loads, units of the SPINCHILLER series offer lower
energy consumption — under normal operating conditions — than any other chiller of similar rated capacity.
MSAT-SC 65D - 180F (R-407C) Cooling
[kW]
65D 210
70D 226
75D 241
80D 255
90D 278
100D 318
110D 364
120D 386
135F 429
150F 462
165F 518
180F 588
Size
Clivet is partecipating in the EUROVENT Certification Programme. Products are listed in the EUROVENT Directory of Certified Products
and in the site www.eurovent-certification.com.
CERTIFIED QUALITY SYSTEM ISO 9001 : 2000
SPLIT SYSTEM 65D - 180F
STANDARD UNIT SPECIFICATIONS
CONFIGURATION CODE
( 1 ) (2) (3) (4)
MSAT-SC D 65D EN T C
- (St andard) SC (St andard) T (St andard) C E (St andard)
D EN C
(1) ENERGY RECOVERY Not required (-) Partial Recovery (D) Performed using braze-welded plate exchangers suitable for recovering the desuperheating heat, up to a maximum of 20% of the total heat of the unit. (2) ACOUSTIC CONFIGURATION compressors soundproofing (SC) this configuration is obtained by inserting the compressors in a soundproofed chamber. Extremely low noise (EN) this configuration is obtained by inserting the compressors in a soundproofed chamber and reducing the speed of the fans, with a larger condensing section.
(3) ENERGY EFFICIENCY Temperate Climate (T) standard (4) HEAT EXCHANGERS APPROVALS CE = PED (European testing) C = CLIVET (Internal testing) B
T05G
013G
B-0
0
2
COMPRESSOR Scroll compressor complete with: overload thermal protection, high refrigerant discharge temperature, rubber antivibration mounts, oil charge, acoustic and weather proof cabinet. A oil heater is automatically switched on at the compressor shut-down to prevent oil dilution by the refrigerant. STRUCTURE hot-galvanized and painted plate structure with pre-painted aluminium external panelling to ensure maximum weatherability. The uniform distribution of the weight of the unit is guaranteed by the base structure, made up of galvanized and painted plate section bars, and featuring holes to simplify the lifting and earthing of the unit. EXTERNAL EXCHANGER Heat exchange coil with aluminium fins and copper tubes in staggered rows. The coils are complete with integral subcooling circuit which assures the correct refrig-erant feeding of the expansion valve. Available in different options as per optional list. FAN helical fans with die-cast aluminium blades, directly coupled to a three-phase electric motor with external rotor, with built-in thermal overload protection, IP 54 index of protection. Housed inside an aerodinamically shaped nozzles to increase efficiency and minimise noise levels; fitted with safety grills. REFRIGERANT CIRCUIT the units are made with two independent refrigerant circuits, each with: - high pressure switch - low pressure switch - low pressure safety valve - high pressure safety valve - compressor discharge shut-off valve - compressor suction shut-off valve - high and low pressure gauges The units are shipped with a sealed charge of nitrogen. ELECTRICAL PANEL the Power Section includes: - main door lock isolator switch - isolating transformer for auxiliary circuit power supply - compressor circuit breaker - fan overload circuit breakers - compressor control contactor - fan control contactors - phase-cutting fan speed control the control section includes: - free contacts for capacity-control step management
- compressor overload protection and timer - self-diagnosis system with immediate display of the error code - compressor operating hour display - remote ON/OFF control - automatic compressor start rotation control - relay for remote cumulative fault signal - input for demand limit (absorbed power limit according to an external signal 0÷10V or 4÷20mA) - display of the set values, the error codes and the parameter index - ON/OFF and alarm reset buttons - UP and DOWN buttons to increase and decrease the values - interface terminal with graphic display ACCESSORIES - copper / aluminium condenser coils with Fin Guard (Silver) treatment - copper / aluminium condenser coils with acrylic lining - copper / copper condenser coils - copper / tinned copper condenser coils - device for reduction of fan consumption Eco Breeze - 25 litre liquid receiver for each circuit - inlet liquid separator - phase monitor - power factor correction capacitors (cosfi > 0.9) - free contacts for compressor state - electronic expansion valves - data logger - remote microprocessor control unit - connection set - CAN/MODBUS serial converter kit - CAN/LON WORKS serial converter kit - spring antivibration mounts
65D - 180F SPLIT SYSTEM
BT0
5G01
3GB
-00
3
Comfort is a human right. Care for the environment is a human duty.
SEASONAL THERMAL LOAD
The SPINCHILLER is an appliance of new conception, designed especially to operate with increasing efficiency as thermal load reduces, yet able to handle the maximum load demand whenever necessary. Because of significant diurnal and seasonal variations in load, chillers must operate for prolonged periods under partial load conditions. A SPINCHILLER unit always ensures conditions of maximum comfort coupled with ultra high efficiency for most of the system’s working life, which means a big saving in electrical energy. This reflects the corporate policy of CLIVET, namely: offering fundamental and concrete solutions to help safeguard the well-being of people and their envi-ronment. By way of example, here is a seasonal thermal load graph relating to a multi-use building (shops, offices and apartments) located in the Milan area.
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
March April May June July August September October
A key aspect of the approach adopted in designing the SPINCHILLER is the notion of equipping a single cooling circuit with a battery of SCROLL compres-sors, rather than the conventional smaller number of bigger semi-hermetic com-pressors. This enables the unit to adapt perfectly to the system load by switching the available compressors in and out of operation progressively in response to the demand. The evolved control equipment used with SPINCHILLER units will optimize the activation sequence and balance the operating cycles of the compressors to maximum advantage.
The unit in an air-conditioning system is selected on the basis of the maxi-mum load the system is designed to handle. In practice however, maximum load conditions account only for a small percentage of the overall operating time, whereas the partial load operation is the true condition in which the unit had to operate. Simulation tests conducted in different buildings have shown that systems operate on average for 90% of total operating time with thermal load lower than 60%. Accordingly, operating efficiency under partial load conditions is a key consideration when selecting a chiller.
The higher efficiency of the SCROLL compressor and the special construc-tional features highlight the thermodynamic efficiency of the SPINChiller units. The graph to the side illustrates the extreme smoothness with which capacity delivered is adapted to the demand and shows how, even when not all the compressors are in operation, the efficiency of the SPINChiller remains higher than that of a conventional chiller, ACHIEVING EVEN DOUBLE THE EFFICIENCY WHEN OPERATING AT UNDER 50% LOAD. An advanced control system optimises the operating cycle and the rotation sequence of the compressors, significantly prolonging their service life. To obtain maximum efficiency, the electronic control activates the compressors according to the most favourable ratio between the heat exchange surfaces, so that the con-densing and evaporation temperatures are always at the most beneficial values.
MULTIPLE HIGH EFFICIENCY SCROLL COMPRESSORS IN THE SAME COOLING CIRCUIT
HIGH EFFICIENCY AT PARTIAL LOADS
RESPONSE TO CHANGING LOAD
SPLIT SYSTEM 65D - 180F
BT0
5G01
3GB
-00
4
In a conventional chiller, cooling capacity in practice follows a curve lower than the theoretical curve by reason of friction and losses that adversely affect the efficiency of the machine, especially when not operating under maximum load. SPINCHILLER units, on the other hand, deliver a cooling capacity much higher in percentage terms than their electrical input, by virtue of the fact that they can operate with oversized heat exchange surfaces whenever maximum load condi-tions do not prevail. This means that extremely high EER values are obtainable — higher than by any other chiller of comparable rated capacity.
0
5000
10000
15000
20000 25000
30000
35000
March April May July August Sept. Octob.
Co
nsu
mo
Ene
rge
tico
[k
Wh
]
SPINCH ILLER
--38%38%
Refrigeratore tradizionale
June
Thanks to the various advantages already mentioned, a unit of the SPINCHILLER series can count on levels of efficiency much higher than those of a conventional chiller almost all of the time when in operation. Comparing the electrical power consumption of a SPINCHILLER with that of a conventional chiller of similar rated capacity — operating in the same system — the SPINCHILLER delivers a saving of around 38% over the season. These perform-ance values, and unparalleled intrinsic reliability, make the SPINCHILLER an unbeatable option in terms both of pay back and of troublefree operation.
Tem
pera
tura
aria
est
erna
2,0
2,5
3,0
3,5
4,0
4,5
5,0
5,5
6,0
0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100%
% di carico
livelli sonori unità SC
livelli sonori unità EN
25°C
20°C
30°C
35°C
40°C
60% del tempo di utilizzo
90% del tempo di utilizzo
E.E.
R.
70
60
65
75
livel
lo d
i pre
ssio
ne s
onor
a [d
B(A
) a 1
m ]
80
The electronic condensation control, included as standard on all SPINCHILLER units, is designed to adjust the speed of the fans automatically as the thermal load reduces. Given that the fans are the main source of noise in a chiller, this is a feature that brings important benefits, especially at night-time, when the demand on the system is less but sensitivity to noise is greatest. From the graph, it will be seen that for 90% of operating time, the sound pressure level is around 6-8 dB(A) lower than would be the case when operating at maximum load.
The SPINchiller unit is able to communicate with other units of the CLIVET-maxi programme when installed and connected. All products of the CLIVET-maxi use the CLIVETtalk facility. This allows connected units to engagé in a continuous exchange of information on ambient conditions, and on how to use the information. Each individual unit can control its own operating pa-rameters natively, on the basis not only of the conditions impacting on it directly, but also of those affecting theentire installation. The result is an extremely high level of overall efficiency, as only a fully integrated system of components can deliver.
THE HIGHEST FLEXIBILITY IN THE CONNECTION TO THE EVAPORATING GROUP MSAT-SC
evaporator
MSAT-SC
evaporator evaporator
HIGHER EFFICIENCY GEARED TO OPTIMUM USE OF HEAT EXCHANGE SURFACES
LOW RUNNING COSTS
NOISE TOO IS LOAD-DEPENDENT
INTEGRATION INTO THE SYSTEM
Condensing unit of MSAT-SC series give the possibility to manage one or two remote evaporating groups. This allows a higher flexibility during selection and installation of the groups.
Within the range of air condensation-based products, Clivet introduces an innovative technology based on the deployment of fans driven by Brushless motors, completely electronically-controlled, characterised by extremely high efficiency and which allow a very advanced adjustment of fan speeds.
The ECOBreeze option envisages the utilisation of special fans driven by electrical Brushless motors. This technology envisages a permanent-magnets rotor, cou-pled with a very advanced magnetic field electronic switching control to the stator, directly integrated within the motor itself. A veritable “feather in the cap” is the electronic switching device that manages the precise and effective modulation of the fan’s rotation speed and, therefore, of the fan’s capacity. The management of this device is entrusted to the unit’s general control system, thus assuring complete integration with the other refrigerating unit’s components; this also allows the attaining of an exceptional overall efficiency. Furthermore, by integrating the control directly within the fan, one is guaranteed absolute suitability in the regulator/fan pair, differently from what is experienced in traditional systems. Finally, under particularly demanding or emergency conditions, for example should the environment temperature rise beyond the limits foreseen, before shutting the delivered power and/or setting the unit under alarm, the control device will detect the specific situa-tion and will force the fans to a rotation speed beyond the nominal value, thus assuring an additional capacity of about 15% of the specified value. In this way, it is possible to assure the production of refrigerated water also when traditional units would be forced into alarm conditions.
asin
cron
o tr
ifase
EcoB
reez
e
%
10%
20%
30%
40%
50%
60%
70%
80%
90%
Effic
ienz
a ηη ηη
The final result confirms that in comparison to the tradi-tional three-phase induction motors, also with frequency and/or voltage governing, the internal losses within the iron are reduced by 60%, those of the copper by 40%, whereas the intrinsic consumption is about half of that of a traditional modulator (inverter, phase adjuster). The energy cutback, and therefore the money saved, under all operating conditions are truly remarkable and the initial investment is repaid in very few months. From that mo-ment onwards the reduced operative costs turn directly into an economic gain for the user.
When fans turn at minimum necessary speed, noise emissions are reduced.
The current damping at start-up (see diagram) due to the control typology, but also to the absence of brushing contacts for the power supply to the rotor, dras-tically reduce the harmful stresses for the lifetime of the component. In the final analysis, the fan’s life can be considered as practically unlimited (greater than 80,000 hours).
The start-up is progressive, without start absorption peaks.
In addition to this, a generalised reduction in noise emission is obtained, due to the effect of both the rotation speed which is always modulated to the most suitable value, in keeping with the operation conditions, and the technology deployed in the governing which doesn't induce particular frequencies and vibrations in the rotation.
Reference: MSAT-SC 150 F installed in Milan, operating for 2000 hrs/year
Measures according to ISO 3744 regulations, with respect to the EUROVENT 8/1 certification. The sound levels refer to the unit at full load, in the rated test conditions. The sound pressure level refers to a distance of 1m from the external surface of the units operating in an open field. Data referred to the following conditions : saturated suction temperature (SST) = 9.5 °C (Dew Point) outside air temperature 35°C
CONVERSION TABLE : DEW / MID POINT
THE FOLLOWING VALUES ARE REFERRED TO DEW POINT. AN INDICATION OF THE CORRE-SPONDING MEDIUM EVAPORATING TEMPERATURE (MID POINT) IS GIVEN IN THE TABLE. DP = DEW POINT TEMPERATURE (C°) MP = MEDIUM TEMPERATURE (C°)
F.L.A. - FULL LOAD CURRENT AT MAX ADMISSIBLE CONDITIONS F.L.A. - Total A 142.6 151.9 161.2 170.5 187.9 205.3 243.7 274.1 285.6 315.7 369.3 406.9
L.R.A. LOCKED ROTOR AMPERES L.R.A. - Single External Fan A 14 14 14 14 14 14 14 14 14 14 16 16
F.L.I. FULL LOAD POWER INPUT AT MAX ADMISSIBLE CONDITION F.L.I. - Total kW 83.8 90.3 97 103.6 113.8 124.1 145.6 163.1 172.9 190.1 217.1 243.5
M.I.C. MAXIMUM INRUSH CURRENT M.I.C. - Value A 339.1 348.4 357.7 367 430.7 448.1 531.3 561.7 543.4 578.5 670.9 716.5
voltage unbalance: max 2 % power supply: 400/3/50 Hz +/-6% Electrical data refer to standard units; according to the installed accessories, the data can suffer light variations.
kWf = Cooling capacity in kW kWe = Compressor power input in kW SST = satured suction temperature corresponds to the pressure at the compressor (°C) (dew point)
EXTERNAL EXCHANGER Max air intake temperature 1 °C 45 45 43 43 42 42 42 42 41 41 41 41 Max air intake temperature 2 °C 48 48 46 46 45 45 45 45 44 44 44 44 Min. air intake temperature 3 °C -10 -10 -10 -10 -10 -10 -10 -10 -10 -10 -10 -10 Min. air intake temperature 4 °C -7 -7 -7 -7 -7 -7 -7 -7 -7 -7 -7 -7 Min. air intake temperature 5 °C 3 3 3 3 3 3 3 3 3 3 3 3 Min. air intake temperature 6 °C 13 13 13 13 13 13 13 13 13 13 13 13
COMPRESSOR Max saturated suction temperature (SST) °C 15 15 15 15 15 15 15 15 15 15 15 15
saturated suction temperature (SST) = 9.5 °C (Dew Point) Warning: the still air condition is meant as absence of air flow to the unit. Any wind condition can let air pass through the condenser coil thus worsening the operating limits of the unit (see limits with air speed at 0,5 m/s & 1 m/s). In order to avoid such situation, windbreak barriers are necessary.
(1) unit at full load (2) capacity-controlled unit (automatic capacity control) (3) unit at full load external exchanger air in quiet (4) capacity-controlled unit (automatic capacity control) external exchanger air in quiet (5) capacity-controlled unit (automatic capacity control) air to external exchanger = 0.5m/sec (6) capacity-controlled unit (automatic capacity control) air to external exchanger = 0.5m/sec
BT0
5G01
3GB
-00
9
kWf = Cooling capacity in kW kWe = Compressor power input in kW SST = satured suction temperature corresponds to the pressure at the compressor (°C) (dew point)
F.L.A. - FULL LOAD CURRENT AT MAX ADMISSIBLE CONDITIONS F.L.A. - Total A 135.8 145.1 154.4 163.7 181.1 198.5 233.5 263.9 278.6 307.7 353.3 398.9
L.R.A. LOCKED ROTOR AMPERES L.R.A. - Single External Fan A 4.7 4.7 4.7 4.7 4.7 4.7 4.7 4.7 10 10 10 10
F.L.I. FULL LOAD POWER INPUT AT MAX ADMISSIBLE CONDITION F.L.I. - Total kW 80.8 87.4 94 100.6 110.8 121 141 158.6 168.5 185.1 211.5 237.9
M.I.C. MAXIMUM INRUSH CURRENT M.I.C. - Value A 317.1 326.4 335.7 345 408.7 426.1 498.3 528.7 525.9 558.5 638.9 684.5
voltage unbalance: max 2 % power supply: 400/3/50 Hz +/-6% Electrical data refer to standard units; according to the installed accessories, the data can suffer light variations.
STANDARD UNIT WEIGHTS Shipping weight kg 2042 2112 2172 2232 2237 2234 2710 2888 3078 3170 3468 3570 Operating weight kg 2112 2184 2246 2308 2313 2318 2825 3008 3203 3300 3598 3720
BT0
5G01
3GB
-00
10
(1) data referred to the following conditions : saturated suction temperature (SST) = 9.5 °C (Dew Point) outside air temperature 35°C (2) Total absorbed power is given by the compressor absorbed power + fan absorbed power + auxiliary circuit absorbed power. (3) AX = axial-flow fan
kWf = Cooling capacity in kW kWe = Compressor power input in kW SST = satured suction temperature corresponds to the pressure at the compressor (°C) (dew point)
EXTERNAL EXCHANGER Max air intake temperature 1 °C 43 43 41 41 40 40 41 40 40 40 39 39 Max air intake temperature 2 °C 46 46 44 44 43 43 44 43 43 43 42 42 Min. air intake temperature 3 °C -10 -10 -10 -10 -10 -10 -10 -10 -10 -10 -10 -10 Min. air intake temperature 4 °C -7 -7 -7 -7 -7 -7 -7 -7 -7 -7 -7 -7 Min. air intake temperature 5 °C 3 3 3 3 3 3 3 3 3 3 3 3 Min. air intake temperature 6 °C 13 13 13 13 13 13 13 13 13 13 13 13
COMPRESSOR Max saturated suction temperature (SST) °C 15 15 15 15 15 15 15 15 15 15 15 15
saturated suction temperature (SST) = 9.5 °C (Dew Point) Warning: the still air condition is meant as absence of air flow to the unit. Any wind condition can let air pass through the condenser coil thus worsening the operating limits of the unit (see limits with air speed at 0,5 m/s & 1 m/s). In order to avoid such situation, windbreak barriers are necessary.
(1) unit at full load (2) capacity-controlled unit (automatic capacity control) (3) unit at full load external exchanger air in quiet (4) capacity-controlled unit (automatic capacity control) external exchanger air in quiet (5) capacity-controlled unit (automatic capacity control) air to external exchanger = 0.5m/sec (6) capacity-controlled unit (automatic capacity control) air to external exchanger = 0.5m/sec
BT0
5G01
3GB
-00
12
kWf = Cooling capacity in kW kWe = Compressor power input in kW SST = satured suction temperature corresponds to the pressure at the compressor (°C) (dew point)
65D - 180F SPLIT SYSTEM
DIMENSIONAL DRAWING
2 2
5
6
33
1
6 6
9 7
10 83
3
2 2
5
4
5
15
2195
53 53
2410
990 9901370 1370
2950
187
835
785 1380 785
3521
2535
1500
(1
4) 700
(12)
700 (11)
700 (11)
1300
(1
3)M N
OP
G
W1 W2
W3 W4
(1) EXTERNAL EXCHANGER (CONDENSER) (2) HOLE TO HANG UNIT (3) LIFTING BRACKETS (4) ELECTRICAL PANEL (5) POWER INPUT (6) SOUNDPROOFED CABIN (7) SUCTION LINE CONNECTION C1 (8) LIQUID LINE CONNECTION C1 (9) SUCTION LINE CONNECTION C2 (10) LIQUID LINE CONNECTION C2 (11) MINIMUM DIMENSION FOR A SAFE PASSAGE. (12) MINIMUM DIMENSION FOR A SAFE PASSAGE WHEN THE DOOR OF THE ELECTRICAL SWITCHBOARD IS OPEN. (13) MINIMUM DIMENSION FOR A PROPER AIR FLOW TO THE CONDENSER COIL. (14) MINIMUM DIMENSION ON THE ELECTRICAL SWITCHBOARD SIDE. (15) CLEARANCE ACCESS RECOMMENDED
Particular accessories, executions or versions can bring about a great variation of the mass represented here. Please contact our Technical Department.
DIMENSIONS: MSAT-SC 65D-70D-75D-80D-90D-100D
SPLIT SYSTEM 65D - 180F
DIMENSIONAL DRAWING
1
2222
3333
4
5
5
5
6 66
7
8
9
10
15
4250
825 825
2020 2020
187
835
2410
2195
5353
985 2280 985
700
(12
)
1 500
(1
4)
700 (11)
700 (11)
1300
(
13)
3521
2535
M N
OP
G
W1 W2
W3 W4
(1) EXTERNAL EXCHANGER (CONDENSER) (2) HOLE TO HANG UNIT (3) LIFTING BRACKETS (4) ELECTRICAL PANEL (5) POWER INPUT (6) SOUNDPROOFED CABIN (7) SUCTION LINE CONNECTION C1 (8) LIQUID LINE CONNECTION C1 (9) SUCTION LINE CONNECTION C2 (10) LIQUID LINE CONNECTION C2 (11) MINIMUM DIMENSION FOR A SAFE PASSAGE. (12) MINIMUM DIMENSION FOR A SAFE PASSAGE WHEN THE DOOR OF THE ELECTRICAL SWITCHBOARD IS OPEN. (13) MINIMUM DIMENSION FOR A PROPER AIR FLOW TO THE CONDENSER COIL. (14) MINIMUM DIMENSION ON THE ELECTRICAL SWITCHBOARD SIDE. (15) CLEARANCE ACCESS RECOMMENDED
BT0
5G01
3GB
-00
14
SIZES 110D 120D 135F 150F W1 kg 893 969 1026 1001
W2 kg 912 950 1002 1071
W3 kg 495 537 549 545
W4 kg 506 527 536 583
Shipping weight kg 2690 2863 2988 3070
Operating weight kg 2805 2983 3113 3200
SC EN
960 977 1031 1073
856 958 1007 1049
533 542 589 596
475 532 575 582
2710 2888 3078 3170
2825 3008 3203 3300
110D 120D 135F 150F
Particular accessories, executions or versions can bring about a great variation of the mass represented here. Please contact our Technical Department.
DIMENSIONS: MSAT-SC 110D-120D-135F-150F
65D - 180F SPLIT SYSTEM
DIMENSIONAL DRAWING
1
2222
3333
456 6 6
7
8
9
10
15
5
4
4
4250
825825
2020 2020
187
835
2 410
2195
5353
985 2280
700
(12
)
1500
(1
4)
1700 (14)
700 (11)
1300
(
13)
2125
M N
OP
700
(12)
985
3535
G
W1 W2
W3 W4
(1) EXTERNAL EXCHANGER (CONDENSER) (2) HOLE TO HANG UNIT (3) LIFTING BRACKETS (4) ELECTRICAL PANEL (5) POWER INPUT (6) SOUNDPROOFED CABIN (7) SUCTION LINE CONNECTION C1 (8) LIQUID LINE CONNECTION C1 (9) SUCTION LINE CONNECTION C2 (10) LIQUID LINE CONNECTION C2 (11) MINIMUM DIMENSION FOR A SAFE PASSAGE. (12) MINIMUM DIMENSION FOR A SAFE PASSAGE WHEN THE DOOR OF THE ELECTRICAL SWITCHBOARD IS OPEN. (13) MINIMUM DIMENSION FOR A PROPER AIR FLOW TO THE CONDENSER COIL. (14) MINIMUM DIMENSION ON THE ELECTRICAL SWITCHBOARD SIDE. (15) CLEARANCE ACCESS RECOMMENDED
BT0
5G01
3GB
-00
15
Particular accessories, executions or versions can bring about a great variation of the mass represented here. Please contact our Technical Department.